Filter device

ABSTRACT

The invention relates to a filter device at least consisting of a housing ( 3, 5 ) and a filter element ( 23 ) that can be received in the housing in a replaceable manner and engages, with at least two key ( 53, 56, 58 ) or lock parts, in correspondingly embodied lock ( 57 ) or key parts of the housing ( 3, 5 ), which are associated with each other respectively in pairs in an engaged manner, as coding means and/or setting means and/or functional means and/or reproduction protection means.

The invention relates to a filter device, consisting of at least a housing and a filter element interchangeably accommodated therein.

Filter devices of this type are state of the art and are used in a variety of designs and embodiments for the filtration of process fluids, hydraulic fluids such as hydraulic oils, liquid fuels and lubricants, for the treatment of liquid media and the like. Of the multitude of known filter devices, DE 10 2015 003 604 A1 shows an example of such a filter device, which is designed as a so-called in-tank filter device. The reliability of such filter devices depends to a very large extent on the fact that, after replacement due to certain operating phases having elapsed, the installed or newly installed filter elements correspond exactly to the specifications, such as filter fineness, filter surface and other parameters. If the relevant filter device is equipped with an inappropriate filter element resulting in reduced or even no performance, which can result in malfunction or even damage, in particular in expensive technical equipment, it can cause significant economic losses.

In view of this issue, the invention addresses the problem of providing a filter device that can be operated in a particularly operationally reliable manner.

According to the present invention, this object is achieved by a filter device having the features of claim 1 in its entirety.

Accordingly, the invention is characterized in that the filter element that can be interchangeably installed in the housing engages with at least two key or lock parts in correspondingly designed lock or key parts of the housing, wherein the key or lock parts are used in pairs assigned to each other in engagement with each other as

coding means and/or

fixing means and/or

operational means and/or

protection against unlicensed copies.

This coded key-lock system, which is based on the mechanical engagement of the filter element with the housing, ensures the highest level of operational reliability, because it eliminates multiple possible types of incorrect installation at the same time. The coding can represent the filter surface, the filter fineness and the differential pressure resistance, which precludes the use of filter elements having a performance that is unsuitable for the particular application. The same applies to the exclusion of filter elements having a filter material that is not suited to the particular purpose. The mechanical engagement of key with lock parts can form a rotation lock for the filter element as a fixing means. Furthermore, the coding provides protection against the use of third-party products manufactured without license having specifications that are unsuitable for the respective purposes.

In particularly advantageous exemplary embodiments, the respective key or lock parts of the filter element are arranged on an annulus, which adjoins an end cap of the filter element and is preferably an integral part of the end cap, wherein the housing for holding the annulus has a holder having the outer contour of this annulus.

Advantageously, the arrangement may in this case be such that the respective key or lock part of the annulus consists of projecting or recessed parts of the equipment, which engage with recessed or projecting parts of the equipment of the holder of the housing holding the installed filter element and/or that in addition or alternatively, as a further key and/or lock part, the outer contour of the annulus and the holder of the housing, at least partially, follow a coordinated traverse line. In these embodiments, the installation of the filter element is prevented in the holder of the housing if the coding does not match.

In advantageous exemplary embodiments, the annulus is connected to one of the end caps via a web-like connecting device and protrudes in the axial and radial direction beyond the holder formed on the end cap for the element material.

With particular advantage, the annulus can be secured against the same or another annulus having differently shaped and/or arranged key or lock parts at the web-like connecting device of the filter element. As a result, end caps can be rationally manufactured as identical parts for filter elements having a wide variety of specifications and performance parameters and subsequently provided with the appropriate coding by attaching the annulus containing the coding in question.

Likewise, the holder of the housing, which is adapted to the shape of the annulus, can be interchangeably attached to the housing.

With particular advantage, the arrangement may be made such that the annulus of the filter element forms a closed outer ring, the outer peripheral side of which has the respective projecting or recessed key or lock parts or is implemented as a traverse line.

Advantageously, the annulus can form the upper seal of the filter device to the outside, by providing the free upper end face of the annulus with a sealing device having a cover part closing the housing as a part thereof, which cover part seals the interior of the filter device towards the environment, at least in this part of the system. Alternatively or additionally, a further sealing device may be present at the lower, free end face of the annulus, which seals the interior of a filter bowl as part of the housing towards the environment.

Projecting tabs may be provided on the annulus as key parts, which tabs can be accommodated in correspondingly formed, recessed tab holders in the holder of the housing.

For the differentiation of several types of filter elements, certain key and/or lock parts can be used as coding means for one type of filter elements, which at least partially differ from key or lock parts of at least one further type of filter elements. In this case, the corresponding lock and/or key parts of the holder of the housing may be present in a plurality such that at least two different types of filter elements can be accommodated in the same housing.

As fixing means, the key or lock parts of the replaceable filter element can engage with the correspondingly formed lock or key parts on the housing in such a way that an axially and/or radially secured position of the filter element in the housing is obtained.

With particular advantage, functional means for the transmission of fluid, energy or information can be used, preferably in the form of lines or line sections that are routed via individual key or lock parts of the filter element and/or its end cap and which take over the function of connecting parts, also in the shape of plug and socket parts. For example, provision can be made to transmit the differential pressure present at the filter element to a pressure-measuring device via lines, line sections or connector parts.

As protection against unlicensed copies, the key and/or lock parts of the housing permit only the installation of filter elements having correspondingly formed lock or key parts. Furthermore, at least two different means may be provided for one filter element, such as a functional means and a fixing means. Also, a means of the filter element whose contour looks the same can perform several tasks, such as that of a coding means, a retaining means, a functional means or a means of protection against unlicensed copies.

The object of the invention is also a filter element, which is provided in particular for a filter device according to any of patent claims 1 to 15 and which has the features of patent claim 16.

In the following the invention is explained in detail with reference to exemplary embodiments shown in the drawing.

In the Figures:

FIG. 1 shows a perspective oblique perspective view, drawn cut in the vertical center plane, of an exemplary embodiment of the filter device according to the invention;

FIG. 2 shows an exploded perspective oblique view of the exemplary embodiment;

FIG. 3 shows a perspective oblique view drawn on a larger scale, in which the exemplary embodiment is shown without cover part and with only partially inserted filter element;

FIG. 4 shows a perspective oblique view of a housing head shown separately, which forms the holder of a filter element and a part of the housing of the filter device

FIG. 5 shows a perspective oblique view of an embodiment of a filter element for use in the filter device according to the invention;

FIG. 6 shows a perspective oblique view of a separately shown end cap of the filter element of FIG. 5;

FIG. 7 shows an oblique perspective view of an annulus provided with coded key parts, which annulus can be secured to one of the end caps of a filter element according to an exemplary embodiment of the invention; and

FIGS. 8 and 9 show oblique views corresponding to FIG. 7 of the annulus provided with different codings.

With reference to the accompanying drawings, the invention is illustrated using the example of a so-called in-tank filter device, wherein the casing has a housing 3 in the form of a relatively thin-walled, hollow circular cylinder, which adjoins the lower end of a filter head 5. At the outside of which there is a mounting flange 7, which can be used to mount the filter head 5 at the edge of an opening 9 on the upper wall 11 of a tank, otherwise not shown, such that the housing 3 extends into the interior of the tank in the vertical direction. The length of the housing 3 is dimensioned such that the lower end 13 is located in the area of the lowest fluid level to be expected in operation. In the longitudinal range adjoining the lower end 13, the housing 3 is provided with penetrations 15, of which only a few are numbered in FIG. 1. At the lower end 13, the housing 3 is connected, in particular crimped, to an annular body 17 which adjoins a connecting piece 19, cf. FIGS. 2 and 3, which forms the unfiltered input for the operation of the device, which unfiltered input is routed through the wall of the tank (not shown) to the outside.

The annular body 17 forms on its inner side the element holder for the lower end cap 21 of a filter element 23. This end cap 21 has a central passage 25 through which in operation the unfiltered matter flowing in via the connecting piece 19 reaches the inner filter cavity 27, which is encompassed by the hollow cylinder of a filter material 29 and forms the unfiltered side. For the sealing of the filtered side towards the outside of the filter material 29, which forms the filtered side, the lower end cap 21 has a downwardly projecting, annular neck 31 on which a sealing annulus 32 forms the seal at the annular body 17.

An upper end cap 34 is provided as an enclosure for the upper end of the filter material 29, the outside of which is encompassed by a perforated support tube 33, which is shown separately in FIG. 6. The filter head 5 encompassing the upper end cap 34 forms on its inside the holder for the mutual engagement of equipment provided at the head 5 and at the end cap 34. As shown in FIGS. 1 and 2, a cover part 35, which can be screwed to the filter head 5, forms the upper end of the device towards the outside.

The construction of the end cap 34 largely corresponds to the end cap 43 shown in the document DE 10 2015 003 604 A1 mentioned above, which is injection-molded from a plastic material, the essential difference being the different configuration of the upper peripheral section of the end cap 34, which is referred to as an annular receiving crown 49 in that document. In accordance with said known solution, the end cap 34 as a central component has a planar annular part 37, which forms the enclosure for the upper end of the hollow body of the filter material 29 adjoining the underside of the annular part 37. The outer circumference of the annular part 37 encompasses an annulus of distributed plate-like webs 39, the planes of which extend in the radial direction and which form the supports for an upper, non-circular wall section 41. More specifically, in this example the non-circular wall section 41 extends along an octagonal traverse line. It bears an annulus 43 on its outer circumference, on which system parts are located, in the manner of a coding, which form key parts for a key/lock system. On the underside of the annular part 37, the latter adjoins a guide part 45 at the inner circumference of the annular part, which guide part has the shape of a hollow cone extending coaxially into the interior of the filter cavity 27. At its tapered end, this conical body has an opening 47, the rim of which forms the sealing surface for a valve body 49 of a bypass valve 52 (FIG. 2), which will be discussed later.

On the outside of the wall section 41, the annulus 43 forms a closed outer ring, which has a sealing device 51 at its upper, free end face, which extends in a radial plane, which sealing device seals the filter device towards the outside by contact to the latter if the filter element 23 is installed in the functional position and if the cover part 35 is attached to the filter head 5. Preferably, a further, continuously extending sealing device (not shown) is arranged on the lower, free end face of the annulus 43, which preferably extends in parallel to the first annular sealing device 51. The latter also seals the interior of the bowl-like housing 3, 5 via the free end face thereof towards the environment.

As equipment that forms coded key parts, projecting tabs 53 are provided on the outer circumference in the radial direction of the annulus 43. The filter head 5 forms a holder 55 (cf. in particular FIG. 4) on the inside of a wall part 54 open at the top, which is located above the mounting flange 7, for the annulus 43 of the end cap 34. As lock parts for the engagement of the tabs 53 of the annulus 43, recessed tab holders 57 are formed in the inner wall in the holder 55. As another coded lock part, the inner wall of the holder 55 is non-circular and follows the outer shape of the annulus 43 in the form of the octagonal polygon in the example shown. In the exemplary embodiment shown, two tabs 53 are provided on the annulus 43 (FIG. 7), to which two tab holders 57 are assigned in the holder 55 of the filter head 5, one of which is aligned with a lateral wall opening 59 provided in the wall part 54 of the filter head 5 and which has a female thread. In a corresponding manner, as shown in the known filter device in FIG. 4 of said document, a differential pressure measuring device (not shown) can be screwed into the opening 59 in such a way that the pressure of the filtered side is present at one of its measurement inputs. The transmission of the current pressure at the unfiltered side to the other measurement input of the differential pressure measuring device is performed in the same manner as in the solution shown in the document mentioned using lines and line sections in the end cap 34 inserted into the holder 55 of the filter head 5. The lines designated 60 and 61 in the known solution (cf. FIG. 3) of the end cap there are routed from the inner filter cavity, where the pressure of the unfiltered side is present, to a radially projecting wall part, which is used to transmit the current pressure to the measuring device. In this invention, this function of transmitting the instantaneous pressure is taken over by the tab 53, belonging to the coding, which is assigned to the tab holder 57 that is flush with the connection opening 59. In this tab holder 57, a connecting channel not visible in the drawing is formed, which is routed to the measurement input of the current pressure on the unfiltered side. The line sections of the end cap 34 transmitting this current pressure, which are visible in FIGS. 2, 3 and 5 and 6, are denoted there by 61 and 63.

As can be seen from FIGS. 1 and 2, the bypass valve 52 is arranged on the cover part 35. It has a coaxial guide cylinder 65 on its underside, in which cylinder the hollow shaft 67 of the valve body 49 is guided in an axially mobile manner. A compression spring 69 is located in the hollow shaft 67, which pre-stresses the valve body 49 such that it abuts the cone body forming the guide part 45 at the rim of the opening 47 when the cover part 35 is attached the filter head 5. If the current pressure of the unfiltered side in the cavity 27 exceeds the closing pressure, the bypass valve 52 opens the fluid path to the inside of the cone body of the end cap 34 and via the gaps between the webs 39 to the filtered side.

While FIGS. 1 to 7 show the coding example based on only two tabs 53, of which the one (bottom in FIG. 7) tab 53 serves as a functional part for transmitting the current pressure of the unfiltered side, with an octagonal traverse line of the outer periphery of the collar 43 forming another coding, it should be understood that a virtually unlimited variety of codings is possible. By way of example, FIG. 8 shows the annulus 43, which in addition to the tabs 53, one of which simultaneously forms a functional means, has two additional tabs 56, which are arranged in the circumferential direction at different distances from each other. FIG. 9 shows an example, in which four further tabs 58 are provided. Again, a tab 53 forms a functional means. The holder 55 in the filter head 5 is provided with two tab holders 57 in the example shown. The filter heads 5 may be provided with tab holders of a number such that in the same holder 55 a plurality of different types of filter elements 23 can be accommodated, which are provided with a smaller number of tabs 53, 56, 58, but have the permissible coding. The coding system provided in the invention not only prevents the incorrect installation of the filter device, but also forms a form-locking rotation lock for the installed filter elements 23.

Because the respective sealing devices 51 used follow the shape of the key parts, which protrude like a tab and integrally protrude from the outer circumference of the annulus 43, the sealing effect would be lost immediately if one of the key parts were to break off. In this way, looming malfunctions in the operation of the filter device can be seen from the start; but also later on. 

1. A filter device, consisting of at least a housing (3, 5) and a filter element (23) interchangeably accommodated therein, which engages with at least two key (53, 56, 58) or lock parts in correspondingly designed lock (57) or key parts of the housing (3, 5), wherein the key or lock parts are used in pairs assigned to each other in engagement with each other as coding means and/or fixing means and/or operational means and/or protection against unlicensed copies.
 2. The filter device according to claim 1, characterized in that the respective key (53, 56, 58) or lock parts of the filter element (23) are arranged on an annulus (43), which adjoins an end cap (34) of the filter element (23) and is preferably an integral part of the end cap (34), and that the housing (3, 5) has a holder (55) having the outer contour of this annulus (43) for holding the annulus (43).
 3. The filter device according to claim 1, characterized in that the respective key or lock parts of the annulus (43) consist of projecting or recessed parts of the equipment (53, 56, 58), which engage with recessed or projecting parts of the equipment (57) of the holder (55) of the housing (3, 5) holding the installed filter element (23) and/or that in addition or alternatively, as a further key and/or lock part, the outer contour of the annulus (43) and the holder (5) of the housing (3, 5), at least partially, follow a coordinated traverse line.
 4. The filter device according to claim 1, characterized in that the annulus (43) is connected to one of the end caps (34) via a web-like connecting device (39) and protrudes in the axial and radial direction beyond the holder (37) formed for the element material (29) on the end cap (34).
 5. The filter device according to claim 1, characterized in that the annulus (43) can be secured against the same or another annulus (43) having differently shaped and/or arranged key (53, 56, 58) or lock parts at the web-like connecting device (39) of the filter element (23).
 6. The filter device according to any one of the preceding claims claim 1, characterized in that the holder (55) of the housing (3, 5), which is adapted to the shape of the annulus (43) is interchangeably attached to the housing
 7. The filter device according to claim 1, characterized in that the annulus (43) of the filter element (23) forms a closed outer ring, the outer peripheral side of which has the respective projecting or recessed key (53, 56, 58) or lock parts and/or is implemented as a traverse line.
 8. The filter device according to claim 1, characterized in that the annulus (43) has a sealing device (51) on at least one of its free end faces, having a cover part (35) closing the housing (3, 5) as a part thereof and/or using parts of the housing (3, 5) itself, which cover part seals the interior (27) of the filter device towards the environment, at least in this part of the system
 9. The filter device according to claim 1, characterized in that projecting tabs (53, 56, 58) may be provided on the annulus (43) as key parts, which tabs can be accommodated in correspondingly formed, recessed tab holders (57) in the holder (55) of the housing (3, 5).
 10. The filter device according to claim 1, characterized in that certain key (53, 56, 58) and/or lock parts are used as coding means for one type of filter elements (23), which at least partially differ from key (53,56, 58) or lock parts of at least one further type of filter elements (23) and that the corresponding lock (57) and/or key parts of the holder (55) of the housing (3, 5) may be present in a plurality such that at least two different types of filter elements (23) can be accommodated in the same housing (3, 5).
 11. The filter device according to claim 1, characterized in that as fixing means, the key (53, 56, 58) or lock parts of the replaceable filter element (23) engage with the correspondingly formed lock (57) or key parts on the housing (3, 5) in such a way that an axially and/or radially secured position of the filter element (23) in the housing (3, 5) is obtained.
 12. The filter device according to claim 1, characterized in that functional means for the transmission of fluid, energy or information are used, preferably in the form of lines or line sections (61, 63) that are routed via individual key (53) or lock parts of the filter element (23) and/or its end cap (34) and which take over the function of connecting parts, also in the shape of plug and socket parts
 13. The filter device according to claim 1, characterized in that as protection against unlicensed copies the key and/or lock parts (57) of the housing (3, 5) permit only the installation of filter elements (23) having correspondingly formed lock or key parts (53, 56, 58).
 14. The filter device according to claim 1, characterized in that at least two different means may be provided for one filter element (23), such as a functional means and a fixing means.
 15. The filter device according to claim 1, characterized in that a means (53) of the filter element (23) whose contour looks the same performs several tasks, such as that of a coding means, a retaining means, a functional means or a means of protection against unlicensed copies.
 16. filter element, in particular provided for a filter device according to claim 1, having element material (29) extending between two end caps (21, 34) wherein one end cap (34) has an axially and radially protruding annulus (43) in relation thereto, via a web-like connecting means (39), characterized in that at least two key (53, 56, 58) and/or lock parts are arranged on the outer circumference of the annulus (43) as coding means and/or fixing means and/or operational means and/or protection against unlicensed copies. 